mdBook/tests/rendered_output.rs
2017-12-02 22:53:19 -08:00

280 lines
9.2 KiB
Rust

extern crate mdbook;
#[macro_use]
extern crate pretty_assertions;
extern crate select;
extern crate tempdir;
extern crate walkdir;
mod dummy_book;
use dummy_book::{assert_contains_strings, DummyBook};
use std::fs::{File, remove_file};
use std::io::Write;
use std::path::Path;
use std::ffi::OsStr;
use walkdir::{DirEntry, WalkDir, WalkDirIterator};
use select::document::Document;
use select::predicate::{Class, Name, Predicate};
use tempdir::TempDir;
use mdbook::errors::*;
use mdbook::utils::fs::file_to_string;
use mdbook::MDBook;
const BOOK_ROOT: &'static str = concat!(env!("CARGO_MANIFEST_DIR"), "/tests/dummy_book");
const TOC_TOP_LEVEL: &[&'static str] = &["1. First Chapter",
"2. Second Chapter",
"Conclusion",
"Introduction"];
const TOC_SECOND_LEVEL: &[&'static str] = &["1.1. Nested Chapter"];
/// Make sure you can load the dummy book and build it without panicking.
#[test]
fn build_the_dummy_book() {
let temp = DummyBook::new().build().unwrap();
let mut md = MDBook::new(temp.path());
md.build().unwrap();
}
#[test]
fn by_default_mdbook_generates_rendered_content_in_the_book_directory() {
let temp = DummyBook::new().build().unwrap();
let mut md = MDBook::new(temp.path());
assert!(!temp.path().join("book").exists());
md.build().unwrap();
assert!(temp.path().join("book").exists());
assert!(temp.path().join("book").join("index.html").exists());
}
#[test]
fn make_sure_bottom_level_files_contain_links_to_chapters() {
let temp = DummyBook::new().build().unwrap();
let mut md = MDBook::new(temp.path());
md.build().unwrap();
let dest = temp.path().join("book");
let links = vec![r#"href="intro.html""#,
r#"href="./first/index.html""#,
r#"href="./first/nested.html""#,
r#"href="./second.html""#,
r#"href="./conclusion.html""#];
let files_in_bottom_dir = vec!["index.html", "intro.html", "second.html", "conclusion.html"];
for filename in files_in_bottom_dir {
assert_contains_strings(dest.join(filename), &links);
}
}
#[test]
fn check_correct_cross_links_in_nested_dir() {
let temp = DummyBook::new().build().unwrap();
let mut md = MDBook::new(temp.path());
md.build().unwrap();
let first = temp.path().join("book").join("first");
let links = vec![r#"<base href="../">"#,
r#"href="intro.html""#,
r#"href="./first/index.html""#,
r#"href="./first/nested.html""#,
r#"href="./second.html""#,
r#"href="./conclusion.html""#];
let files_in_nested_dir = vec!["index.html", "nested.html"];
for filename in files_in_nested_dir {
assert_contains_strings(first.join(filename), &links);
}
assert_contains_strings(first.join("index.html"),
&[r##"href="./first/index.html#some-section" id="some-section""##]);
assert_contains_strings(first.join("nested.html"),
&[r##"href="./first/nested.html#some-section" id="some-section""##]);
}
#[test]
fn rendered_code_has_playpen_stuff() {
let temp = DummyBook::new().build().unwrap();
let mut md = MDBook::new(temp.path());
md.build().unwrap();
let nested = temp.path().join("book/first/nested.html");
let playpen_class = vec![r#"class="playpen""#];
assert_contains_strings(nested, &playpen_class);
let book_js = temp.path().join("book/book.js");
assert_contains_strings(book_js, &[".playpen"]);
}
#[test]
fn chapter_content_appears_in_rendered_document() {
let content = vec![("index.html", "Here's some interesting text"),
("second.html", "Second Chapter"),
("first/nested.html", "testable code"),
("first/index.html", "more text"),
("conclusion.html", "Conclusion")];
let temp = DummyBook::new().build().unwrap();
let mut md = MDBook::new(temp.path());
md.build().unwrap();
let destination = temp.path().join("book");
for (filename, text) in content {
let path = destination.join(filename);
assert_contains_strings(path, &[text]);
}
}
/// Apply a series of predicates to some root predicate, where each
/// successive predicate is the descendant of the last one. Similar to how you
/// might do `ul.foo li a` in CSS to access all anchor tags in the `foo` list.
macro_rules! descendants {
($root:expr, $($child:expr),*) => {
$root
$(
.descendant($child)
)*
};
}
/// Make sure that all `*.md` files (excluding `SUMMARY.md`) were rendered
/// and placed in the `book` directory with their extensions set to `*.html`.
#[test]
fn chapter_files_were_rendered_to_html() {
let temp = DummyBook::new().build().unwrap();
let src = Path::new(BOOK_ROOT).join("src");
let chapter_files = WalkDir::new(&src).into_iter()
.filter_entry(|entry| entry_ends_with(entry, ".md"))
.filter_map(|entry| entry.ok())
.map(|entry| entry.path().to_path_buf())
.filter(|path| {
path.file_name().and_then(OsStr::to_str)
!= Some("SUMMARY.md")
});
for chapter in chapter_files {
let rendered_location = temp.path().join(chapter.strip_prefix(&src).unwrap())
.with_extension("html");
assert!(rendered_location.exists(),
"{} doesn't exits",
rendered_location.display());
}
}
fn entry_ends_with(entry: &DirEntry, ending: &str) -> bool {
entry.file_name().to_string_lossy().ends_with(ending)
}
/// Read the main page (`book/index.html`) and expose it as a DOM which we
/// can search with the `select` crate
fn root_index_html() -> Result<Document> {
let temp = DummyBook::new().build()
.chain_err(|| "Couldn't create the dummy book")?;
MDBook::new(temp.path()).build()
.chain_err(|| "Book building failed")?;
let index_page = temp.path().join("book").join("index.html");
let html = file_to_string(&index_page).chain_err(|| "Unable to read index.html")?;
Ok(Document::from(html.as_str()))
}
#[test]
fn check_second_toc_level() {
let doc = root_index_html().unwrap();
let mut should_be = Vec::from(TOC_SECOND_LEVEL);
should_be.sort();
let pred = descendants!(Class("chapter"), Name("li"), Name("li"), Name("a"));
let mut children_of_children: Vec<_> =
doc.find(pred).map(|elem| elem.text().trim().to_string())
.collect();
children_of_children.sort();
assert_eq!(children_of_children, should_be);
}
#[test]
fn check_first_toc_level() {
let doc = root_index_html().unwrap();
let mut should_be = Vec::from(TOC_TOP_LEVEL);
should_be.extend(TOC_SECOND_LEVEL);
should_be.sort();
let pred = descendants!(Class("chapter"), Name("li"), Name("a"));
let mut children: Vec<_> = doc.find(pred).map(|elem| elem.text().trim().to_string())
.collect();
children.sort();
assert_eq!(children, should_be);
}
#[test]
fn check_spacers() {
let doc = root_index_html().unwrap();
let should_be = 1;
let num_spacers =
doc.find(Class("chapter").descendant(Name("li").and(Class("spacer")))).count();
assert_eq!(num_spacers, should_be);
}
/// Ensure building fails if `create-missing` is false and one of the files does
/// not exist.
#[test]
fn failure_on_missing_file() {
let (md, _temp) = create_missing_setup(Some(false));
// On failure, `build()` does not return a specific error, so assume
// any error is a failure due to a missing file.
assert!(md.read_config().unwrap().build().is_err());
}
/// Ensure a missing file is created if `create-missing` is true.
#[test]
fn create_missing_file_with_config() {
let (md, temp) = create_missing_setup(Some(true));
md.read_config().unwrap().build().unwrap();
assert!(temp.path().join("src").join("intro.md").exists());
}
/// Ensure a missing file is created if `create-missing` is not set (the default
/// is true).
#[test]
fn create_missing_file_without_config() {
let (md, temp) = create_missing_setup(None);
md.read_config().unwrap().build().unwrap();
assert!(temp.path().join("src").join("intro.md").exists());
}
fn create_missing_setup(create_missing: Option<bool>) -> (MDBook, TempDir) {
let temp = DummyBook::new().build().unwrap();
let md = MDBook::new(temp.path());
let mut file = File::create(temp.path().join("book.toml")).unwrap();
match create_missing {
Some(true) => file.write_all(b"[build]\ncreate-missing = true\n").unwrap(),
Some(false) => file.write_all(b"[build]\ncreate-missing = false\n").unwrap(),
None => (),
}
file.flush().unwrap();
remove_file(temp.path().join("src").join("intro.md")).unwrap();
(md, temp)
}